9. Application Layer9. Application Layer.pptx

© 2008 Cisco Systems, Inc. All rights reserved. Cisco Confidential
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Chapter 9:
Application Layer
Network Basics

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Chapter 9 Objectives
 Explain how the functions of the application layer, session layer, and presentation
layer work together to provide network services to end user applications.
 Describe how common application layer protocols interact with end user
applications.
 Describe, at a high level, common application layer protocols that provide Internet
services to end-users, including WWW services and email.
 Describe application layer protocols that provide IP addressing services, including
DNS and DHCP.
 Describe the features and operation of well-known application layer protocols that
allow for file sharing services, including: FTP, File Sharing Services, SMB protocol.
 Explain how data is moved across the network, from opening an application to
receiving data.

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Chapter 9
9.1 Application Layer Protocols
9.2 Well-Known Application Layer Protocols and Service
9.3 The Message Heard Around the World
9.4 Summary

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The Application Layer provides the interface to the network.
9.1 Application Layer Protocols

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Application, Session and Presentation
OSI and TCP/IP Models Revisited
The key parallels are in the transport and network layer.

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Application Session and Presentation
Application Layer

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Presentation and Session Layers
Presentation layer has three primary functions:
• Coding and conversion of application layer data
• Compression of the data
• Encryption of the data for transmission and the
decryption of data upon receipt by the destination
Session Layer
• Functions create and maintain dialogs between
source and destination applications
• Handles the exchange of information to initiate
dialogs, keep them active, and to restart sessions

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Presentation and Session Layers

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TCP/IP Application Layer Protocols
Domain Name Service Protocol (DNS) - used to resolve
Internet names to IP addresses
Telnet - a terminal emulation protocol used to provide remote
access to servers and networking devices
Bootstrap Protocol (BOOTP) - a precursor to the DHCP
protocol, a network protocol used to obtain IP address
information during bootup
Dynamic Host Control Protocol (DHCP) - used to assign
an IP address, subnet mask, default gateway and DNS
server to a host
Hypertext Transfer Protocol (HTTP) - used to transfer files
that make up the Web pages of the World Wide Web

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TCP/IP Application Layer Protocols
File Transfer Protocol (FTP) - used for interactive file
transfer between systems
Trivial File Transfer Protocol (TFTP) - used for
connectionless active file transfer
Simple Mail Transfer Protocol (SMTP) - used for the
transfer of mail messages and attachments
Post Office Protocol (POP) - used by email clients to
retrieve email from a remote server
Internet Message Access Protocol (IMAP) – another
protocol for email retrieval

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How Application Protocols Interact with End-User Applications
Peer-to-Peer Networks
Both devices are considered equal in the communication
The roles of client and server are set on a per request basis.

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Peer-to-Peer Applications
Client and server in the same communication
Both can initiate a communication and are considered equal
in the communication process

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Common P2P Applications
 With P2P applications, each computer in the network
running the application can act as a client or a server for
the other computers in the network running the application
 Common P2P applications include:
• eDonkey
• eMule
• Shareaza
• BitTorrent
• Bitcoin
• LionShare
 Some P2P applications are based on the Gnutella protocol
which enables people to share files on their hard disks with
others

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Client-Server Model

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Client-Server Model

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9.2 Well-Known Application Layer Protocols
and Services

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Common Application Layer Protocols
Application Layer Protocols Revisited
Three application layer protocols that are involved in everyday
work or play are:
 Hypertext Transfer Protocol (HTTP)
• browse the web
 Simple Mail Transfer Protocol (SMTP)
• used to enable users to send email
 Post Office Protocol (POP)
• used to enable users to receive email

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Hypertext Transfer Protocol / Markup Language
Example
URL: http://www.cisco.com/index.html
 First, the browser interprets the three parts of the URL:
1. http (the protocol or scheme)
2. www.cisco.com (the server name)
3. index.html (the specific file name requested)
 Browser checks with a name server to convert
www.cisco.com into a numeric address
 Using the HTTP protocol requirements sends a GET request
to the server and asks for the file index.html
 Server sends the HTML code for this web page
 Browser deciphers the HTML code and formats the page

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HTTP and HTTPS
• Developed to publish
and retrieve HTML
pages
• Used for data transfer
• Specifies a
request/response
protocol
• Three common
message types are
GET, POST, and PUT
• GET is a client
request for data
• POST and PUT are
used to send
messages that upload
data to the web
server

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SMTP, POP, and IMAP
• Typically use an application
called a Mail User Agent
(email client)
• Allows messages to be sent
• Places received messages
into the client's mailbox
• SMTP - Send email from
either a client or a server
• POP - Receive email
messages from an email
server
• IMAP - Internet Message
Access Protocol
• Email client provides the
functionality of both
protocols within one
application

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SMTP, POP, and IMAP

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SMTP, POP, and IMAP (Continued)
Simple Mail Transfer
Protocol (SMTP)
 transfers mail
 message must be
formatted properly
 SMTP processes
must be running on
both the client and
server
 message header
must have a properly
formatted recipient
email address and a
sender
 uses port 25

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SMTP, POP, and IMAP (Continued) Post Office Protocol
(POP)
 enables a workstation
to retrieve mail from a
mail server
 mail is downloaded
from the server to the
client and then
deleted on the server
 uses port 110
 POP does not store
messages
 POP3 is desirable for
an ISP, because it
alleviates their
responsibility for
managing large
amounts of storage
for their email servers

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SMTP, POP, and IMAP (Continued)
Simple Mail Transfer Protocol (SMTP)
• Transfers mail reliably and efficiently
Post Office Protocol (POP)
• Enables a workstation to retrieve mail from a mail server
• With POP, mail is downloaded from the server to the
client and then deleted on the server
Internet Message Access Protocol (IMAP)
• Another protocol that to retrieves email messages
• Unlike POP, when the user connects to an IMAP-capable
server, copies of the messages are downloaded to the
client application
• Original messages are kept on the server until manually
deleted

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Providing IP Addressing Services
Domain Name Service
A human legible
name is resolved
to its numeric
network device
address by the
DNS protocol

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Domain Name Service
A human legible
name is resolved
to its numeric
network device
address by the
DNS protocol

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DNS Message Format
• DNS server stores different types of resource records used
to resolve names
• Contain the name, address, and type of record
• Record types are:
• A - an end device address
• NS - an authoritative name server
• CNAME - the canonical name for an alias; used when
multiple services have the single network address but
each service has its own entry in DNS
• MX - mail exchange record; maps a domain name to a
list of mail exchange servers
• Unable to resolve the name using its stored records,
contacts other servers
• Server temporarily stores the numbered address that
matches the name in cache memory
• Windows ipconfig /displaydns displays all cached DNS

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DNS Hierarchy
Examples top-
level domains:
.au - Australia
.co - Colombia
.com - business
or industry
.jp - Japan
.org - non-profit
organization

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nslookup
• Operating system utility called nslookup allows the user to manually
query the name servers to resolve a given host name
• Utility can be used to troubleshoot name resolution issues and to verify
the current status of the name servers

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Dynamic Host Configuration Protocol
 DHCP allows a host to
obtain an IP address
dynamically
 DHCP server is
contacted and address
requested - chooses
address from a
configured range of
addresses called a pool
and “leases” it to the
host for a set period
 DHCP used for general
purpose hosts such as
end user devices, and
static addressing is
used for network
devices such as
gateways, switches,
servers and printers

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DHCP Operation

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Providing File Sharing Services
File Transfer Protocol
• FTP allow data
transfers between a
client and a server
• FTP client is an
application that runs
on a computer that is
used to push and pull
data from a server
running an FTP
daemon
• To successfully
transfer data, FTP
requires two
connections between
the client and the
server, one for
commands and
replies, the other for
the actual file transfer

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Server Message Block
• Clients
establish a long
term connection
to servers
• After the
connection is
established, the
user can
access the
resources on
the server as if
the resource is
local to the
client host

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Server Message Block

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Move It!
The Internet of Things

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Move It!
Message Travels Through a Network

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Move It!

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Move It!

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Move It!
Getting the Data to the End Device

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Move It!
Getting the Data through the Internetwork

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Move It!
Getting the Data to the Right Application

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Application Layer
Summary
 Applications are computer programs with which the user
interacts and which initiate the data transfer process at the
user’s request.
 Services are background programs that provide the
connection between the application layer and the lower layers
of the networking model.
 Protocols provide a structure of agreed-upon rules and
processes that ensure services running on one particular
device can send and receive data from a range of different
network devices.

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Application Layer
Summary
 HTTP supports the delivery of web pages to end devices
 SMTP, POP, and IMAP support sending and receiving email
 SMB and FTP enable users to share files
 P2P applications make it easier for consumers to seamlessly
share media
 DNS resolves the human legible names used to refer to
network resources into numeric addresses usable by the
network
 All of these elements work together, at the application layer.
 The application layer enables users to work and play over the
Internet.

Presentation_ID 44

9. Application Layer9. Application Layer.pptx

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